Temperature dependence of sensitivity (-40☌ to +70☌): <1%
ISO classification: ISO 9060 Secondary Standardĭirectional response (up to 80° with 1000 W/m² beam): <10 W/m²
The faster response time meets the requirements for solar energy monitoring. The SMP10 uses a temperature compensated detector and has better linearity and long-term stability, lower thermal offset and faster response than a first class pyranometer. The Internal drying cartridge is rated to 10 years if the housing is not opened. The SMP10 extends this quality to applications where maintenance is difficult and/or forms a major part of the cost of ownership. 82603-10A: This Kipp & Zonen SMP10 thermopile sensor meets ISO 9060:1990 Secondary Standard requirements (highest possible ISO pyranometer performance category). Optional mounting brackets available.Ĭatalog No. Temperature dependence of sensitivity (-40☌ to +70☌): <3% Spectral range (50% point): 285 to 2800 nmĭirectional response (up to 80° with 1000 W/m² beam): <15 W/m²
Spectral range (20% point): 280 to 3000 nm ISO classification: ISO 9060:1990 First Class The sensor outputs 0 to 1 VDC signal and can be interfaced directly to the MicroServer’s analog channels. The screw-in drying cartridge is easy to remove and the replacement desiccant is supplied in convenient refill packets. The connector with gold-plated contacts allows for easy exchange and re-calibration. The integral bubble level is raised to the top of the housing and can be viewed without removing the redesigned snap-on sun shield, which also covers the connector. It has improved performance due to the increased thermal mass and the double glass dome construction. The sensing element is coated with a highly stable carbon based non-organic coating, which delivers excellent spectral absorption and long term stability characteristics. 82603-6A: This Kipp & Zonen SMP6 thermopile sensor meets ISO 9060:1990 First Class requirements and features a sixty-four thermocouple junction (series connected) sensing element.
– SNMP, Modbus/OPC and RTU, DNP3 and BACnet communication protocols are standard for industrial applications.This allows users to simultaneously monitor the weather using WeatherMaster on any computer connected to the network.
The Weather MicroServer can provide real-time weather data to WeatherMaster Software over the network. Scroll way down for list of meteorological parameters measured/calculated.